Joint replacement methods and apparatus

ABSTRACT

Apparatus and surgical techniques provide alternative cutting fixtures and other features to improve bone resection accuracy and joint stability. According to one embodiment, stabilizers are removably attached to a cutting guide to temporarily lengthen the surface against which a saw or other cutting device rests. Another embodiment provides differently shaped saw blades, having curved distal ends and right-angle bends applicable to box cuts of the type associated with cruciate sacrifice knee-replacement surgery. Methods are also disclosed whereby the box cuts, distal and posterior augment cuts may be approached from a distal perspective, both laterally and medially. A different embodiment provides a trial/cutting guide having flat surfaces as opposed to curved surfaces adapted for articulation within a joint. Yet a further alternative embodiment teaches a device for determining the joint line relative to a tibia using the fibula as reference.

REFERENCE TO RELATED APPLICATION

[0001] This application claims priority of U.S. provisional application Serial No. 60/059,804, filed Sep. 23, 1997, the entire contents of which are incorporated herein by reference.

FIELD OF THE INVENTION

[0002] This invention concerns arthroplasty, and, more particularly, resides in improved cutting guides and techniques to better assist a surgeon in preparing a bone, for example, to receive an implant.

BACKGROUND OF THE INVENTION

[0003] Whether for primary or revision arthroplasty, cutting guides are typically employed to ensure that the bone saw performs resections corresponding to mating surfaces of the prosthetic component. For example, in a femoral knee replacement, cutting guides or blocks are temporarily secured to the distal end of the femoral shaft, and include slots into which the blade of an oscillating saw is inserted to shape the end of the bone in accordance with corresponding surfaces of the prosthetic element.

[0004] In the case of a revision, the procedure is usually more elaborate due to deterioration of the previously prepared surfaces resulting from decomposition of the bone/prosthesis interface, necrosis, and other factors. Cutting blocks are also typically used in revision procedures, though bone deficiency often renders stabilization of the block impossible. In addition, if the cutting block includes a stem, the positioning of the stemmed implant can alter the fit of the final prosthesis relative to the bone. More recently introduced techniques attempt to base the cuts on an intramedullary guide to which additional cutting blocks are mounted. Though such approaches improve bone cutting accuracy, there remains an unacceptable margin of error, the correction of which in some cases requiring a freehand shaping of the bone.

SUMMARY OF THE INVENTION

[0005] This invention extends and, in certain instances, improves upon, apparatus and methods disclosed and claimed in U.S. Pat. No. 5,716,361, which relates to combination trial/cutting guides, and methods of using the same, in various orthopedic joint situations such as the knee, hip, shoulder, and other areas of the body. The present invention is directed toward apparatus and surgical techniques which augment or supplant certain teachings of the '361 patent with respect to alternative cutting fixtures and resection accuracy and stability.

[0006] One embodiment provides stabilizers which are removably attached to a cutting guide so as to temporarily lengthen the surface against which a saw or other cutting device rests. Another embodiment provides differently shaped saw blades, having curved distal ends and right-angle bends applicable to box cuts of the type associated with cruciate-sacrifice knee-replacement surgery. Methods are also disclosed whereby the box cuts, distal and posterior augment cuts may be approached from a distal perspective, both laterally and medially. A different embodiment provides a trial/cutting guide having flat surfaces as opposed to curved surfaces adapted for articulation within a joint. Yet a further alternative embodiment teaches a device for determining the joint line relative to a tibia using the fibula as reference.

BRIEF DESCRIPTION OF THE DRAWINGS

[0007]FIG. 1 is a drawing which shows the use of stabilizers removably attached to a cutting guide to temporarily lengthening the surface against which a saw or other cutting device uses as a guide;

[0008]FIG. 2A is a drawing of a curved saw blade according to the invention;

[0009]FIG. 2B is a drawing of an alternative saw blade according to the invention, preferably including a right-angle bend;

[0010]FIG. 3A is a drawing which depicts a trial/cutting guide having flat surfaces as opposed to curved surfaces adapted for articulation within a joint;

[0011]FIG. 3B is a drawing which depicts a trial/cutting guide having truncated surfaces corresponding to chamfer cuts;

[0012]FIG. 3C is a drawing which depicts a trial/cutting guide having a rounded surface;

[0013]FIG. 4A is a drawing which illustrates a method of approaching box cuts from a distal perspective;

[0014]FIGS. 4B and 4C depict alternative ways in which distal and posterior augment cuts may be made from the side, whether laterally or medially;

[0015]FIG. 5 shows a device for determining the joint line relative to a tibia using the fibula as reference;

[0016]FIG. 6A is a drawing which shows a wedge-shaped defect often encountered in distal femur bone loss; and

[0017]FIG. 6B is a drawing which shows a combination trial and cutting guide having “non-parallel” slots and wedges as part of a bone-loss conforming method of resection.

DETAILED DESCRIPTION OF THE INVENTION

[0018] The present invention extends and, in certain instances, improves upon apparatus and methods disclosed and claimed in U.S. Pat. No. 5,716,361, which issued Feb. 10, 1998, entitled BONE CUTTING GUIDES FOR USE IN THE IMPLANTATION OF PROSTHETIC JOINT COMPONENTS. Accordingly, the entire contents of this patent are incorporated herein by reference. Broadly, the '361 patent relates to combination trial/cutting guides, and methods of using the same, in various orthopedic joint situations such as the knee, hip, shoulder, and other areas of the body. The apparatus resides in a shaped body having an inner surface adapted for temporary placement against a bone surface and an outer surface configured to co-act in a joint, for example, as part of a trial reduction. The present invention is directed toward apparatus and surgical techniques which augment or supplant certain teachings of the '361 patent with respect to alternative cutting fixtures and resection accuracy and stability. The various aspects of the instant disclosure are broadly classified according to broad categories which follow.

Trial/Cutting Guide Stabilizers

[0019] In some instances, including those associated with femoral knee arthroplasty, the shaping of the cutting body to co-act in a joint may result in relatively thin thicknesses between the inner and outer surfaces of the body. As such, if surfaces or slots are provided for a particular resection, the cutting tool may extend through the body of the device for only a short distance, resulting in a potential instability.

[0020] This aspect of the present invention is accordingly directed toward the lengthening of one or more of the cutting guides through the use of removable stabilizers which are temporarily attached to the body. This feature builds upon concepts disclosed in reference to FIG. 6 of the '361 patent, in particular, which teaches the use of an extension block to carry out box cuts. However, although the following discussion and drawings reference a combination trial and cutting guide of the type disclosed in this issued patent, it should be understood that these removable stabilizers are applicable to other bone-cutting situations and, in fact, may be applied to cutting guides even if they are not shaped to function as a trial device.

[0021] As illustrated in FIG. 1, stabilizers 12 and 14 are temporarily and removably attached to a cutting guide 10, thereby effectively lengthening the surface against which a saw or other cutting device uses as a guide with respect to a resection procedure. The stabilizers may include a single, extended flat surface such as that provided by block 12, or may include slots, as shown with respect to block 14, or both surfaces and slots in combination with additional features.

[0022] The stabilizers may be temporarily affixed to the cutting guide in a number of ways, including removable machine screws or Allen screws, or detachable snaps which use pressure to apply and remove the members. As a further alternative, a stabilizer such as 16 may include a feature which fits into an adjacent slot to provide temporary positioning. The application of the stabilizers according to the invention is not limited to the slots, openings or positions illustrated in the drawing, but may be used in conjunction with any provided cutting surface. Procedurally, the method of use would follow that disclosed in the '361 patent, in that a reduction would be performed and, upon a successful trial, the resections would be carried, as required, with the addition of these slot extensions being used for further tool stabilization as disclosed herein.

Saw Blades for Effective Box-Cut Resections

[0023] In U.S. Pat. No. 5,716,361, slots and surfaces are provided to perform box cuts of the type associated with a cruciate-sacrificing procedure. Apparatus and methods are shown whereby even the bottom of the box could be at least partially formed by a slot or surface provided for such purpose. Although the end of the saw blade may eventually reach the surface of an intramedullary stem, if so provided, upon removal of interfering portion later in the procedure, the beginning of the cut could simply be extended, using the cut itself as a guide for the remaining portion of the resection.

[0024] As shown in FIG. 2A, a curved saw blade 22 may be provided such that when the stem 24 is approached from above or below, additional material on either side of the stem will be more effectively removed, thereby forming nearly the entire bottom of the box even with the stem in place. As an alternative to posterior-anterior slot orientation, a different or supplemental set of slots may be provided to approach the bottom cut from the side of the trial-guide body. As shown in FIG. 2B, a saw 26 having a right-angle blade may be provided, such that and with the trial/cutting guide in place and with the knee flexed, any remaining portion(s) of the bottom of the box may be approached from the side.

Geometric Trial/Cutting Guides

[0025] A different aspect of this invention is directed toward trial/cutting guides which do not necessarily include articulating outer surfaces to co-act in a joint. That is, in contrast to certain of the devices and techniques disclosed in U.S. Pat. No. 5,716,361 wherein, for example, condylar surfaces are provided to co-act in a joint, so long as both sides of the joint have surfaces which mate to properly determine gaps or distances, such surfaces which conform to human anatomy need not be provided as a prelude to a trial joint reduction.

[0026] As shown in FIGS. 3A-3C, trial/cutting guides may be provided having surfaces geometrically indexed to a final implant, as opposed to complex, curved articulating surfaces, and still function to establish a desired orientation as part of a trial joint reduction. As long as the opposite side of the joint is configured to mate with these flat surface, the surgeon may reduce this assembly into the joint to test for proper joint action, including extension/flexion gaps in the case of knee-replacement surgery. With the trial/cutting guide is in position, it may be moved around so as to mate with the corresponding joint surface and then pinned into place once a desired orientation has been established. After flexing, the cuts associated with the joint may be made with the cutting guide and, in the event that augments are required, these may be provided in conjunction with a trial or a final, as appropriate.

[0027] Although FIG. 3A shows a primary distal flat section which is connected to a stem and an anterior section, the apparatus may include a posterior section as depicted with the arrow. In such a case, when the joint is flexed, this posterior piece may rest against the tibial portion to stabilize the entire assembly for resection as shown in the small inset drawing. Nor do the test surfaces need to be flat or joined at right angles. As shown in FIG. 3B, the outer surface 38 may be truncated in a manner corresponding to the “chamfer” cuts or, alternatively, as shown in FIG. 3C, the outer surface 39 may be rounded off without having to form complex condylar surfaces, for example, so long as a geometric index is established with respect to the prosthesis ultimately installed in terms of joint line, flexion/extension gaps, degree of varus/vulgus, or some combination of these or other criteria. One advantage of these alternative configurations is that joint geometry and movement may be tested for accuracy, but the apparatus may be much more easy to manufacture with the flat surfaces as opposed to highly complex surfaces used to provide natural joint features.

Alternative Cutting Approaches and Guide Marking

[0028] In performing cruciate sacrificing knee-replacement surgery, so-called box cuts are used to accommodate an intercondylar protrusion. To make the sides of the box cuts, slots may be provided from anterior to posterior, as shown in U.S. Pat. No. 5,716,361. As an alternative, however, slots may be provided as shown in FIG. 4A to approach these cuts distally. Although such a capability is disclosed in the form of an aperture in the '361 patent, slots may alternatively be provided, as shown.

[0029]FIGS. 4B and 4C depict alternative ways in which the distal and posterior augment cuts may be made from the side, whether laterally or medially. FIG. 4B shows how a standard trial may be employed with or without other slots or cutting guides. In addition, a removable attachment guide may be temporarily attached to the side of the trial, as shown, to perform the distal cuts. The removable attachment guide may be located at different positions, depending upon the augments that will be used on the final.

[0030] As a further alternative, instead of a guide attachment, indicators may be provided along various edges or other points of the cutting guide body itself, enabling the surgeon to mark the bone, whether or not as part of a trial reduction, remove the cutting guide body, and perform the cuts in a conventional manner (i.e., with standard cutting guides). The advantage here, however, is that with the trial in place these markings would indicate precisely where the final implant will be fixed to the bone, whether augments are required or not. FIG. 4C illustrates a similar concept, except for the posterior cuts, in the sense that a standard trial could be used but again facilities could be provided whereby either a saw guide could be clipped on or the bone could be marked for the posterior and anterior cuts in the manner just described for the distal cut.

Fibula Referencing

[0031]FIG. 5 depicts a different aspect of the invention, including a device for determining the joint line relative to the tibia, using the fibula as reference. The device, labeled ‘A’, contacts the head or proximal portion of the fibula. The device preferably includes a transverse extending rod which is used to estimate where the joint line should be recreated relative to a deficient tibial surface. The vertical portion labeled ‘X’ may be adjustable or fixed. Adjustability allows the joint line to be estimated and adjusted relative to a different sized individual. This could be estimated from an x-ray or other means.

[0032] In addition, an element may be provided on the transverse bar ‘Y’, to assure a transverse positioning, such as a bubble within a fluid as commonly provided with a level, this of course would be more involved than just a simple transverse bar or any other such configuration would be appropriate as well.

Bone-Loss Conforming Slots and Augments

[0033] Now making reference to FIG. 6A, it is often the case that bone loss occurs primarily with respect to a central portion of the bone, leaving outer edges with a greater volume of bone stock remaining intact. As shown in FIG. 6A, such is typically the case with the distal femur, resulting in a defect which is often wedge-shaped, as shown. With traditional cutting guides that produce transversely-aligned surfaces, it is often the case that this abundance of medial and lateral remaining bone is simply resected and lost for the sake of geometric simplicity.

[0034] As shown in FIG. 6B, a different aspect of this invention is the provision of non-parallel slots and corresponding wedges, which may be used to retain at least some of this outer remaining bone material. That is, instead of making the traditional straight across distal cut 62, as shown in FIG. 6A, the cutting guide of FIG. 6B is instead used to make the cuts along lines 64 and 66 thereby retaining the tips of the outer portions of the bone. In the event that wedges are required to fill the gaps between the prosthetic element and the surfaces created through these non-parallel slots, the wedges, too, are also wedge-shaped, as shown in FIG. 6B. Although the specific example depicted has to do with the distal femur, it should be noted that the apparatus and methods are useful in any situation which would benefit from an oblique cut and/or corresponding wedges to conserve bone stock where, in the past, straight-across cuts have been used at the expense of such bone material.

[0035] I claim: 

1. A system for positioning one or more prosthetic devices in conjunction with joint-replacement surgery, comprising: a first component having an inner surface and an outer surface, the inner surface being shaped for installation onto a first bone associated with a joint; a second component having an inner surface and an outer surface, the inner surface being shaped for installation onto a second bone associated with the joint; and at least one of the components further including one or more bone cutting guides, whereby the bones may be reduced with the components installed to test the joint, with the outer surfaces of the two components being such that when aligned relative to one another during a trial joint reduction, a desired joint orientation may be achieved enabling the bone to be shaped using the cutting guides to receive the prosthetic device and returned to the desired orientation.
 2. The system of claim 1, wherein the components and prosthetic device are associated with knee-replacement surgery.
 3. The system of claim 1, further including a cutting guide extension member connected to the component having the cutting guides, the extension member being operative to at least temporarily provide a larger surface area against which a cutting tool may rest to enhance stabilization during resection.
 4. A method of shaping a bone to receive a prosthesis, comprising the steps of: providing a combination trial and cutting guide having an inner surface and an outer surface, the inner surface being shaped for conformance with a bone to be modified, and the outer surface being geometrically indexed to the articulating surface of the prosthesis; performing a trial joint reduction including the bone having the combination trial and cutting guide temporarily installed thereon; shaping the bone with the cutting guide so that the prosthesis will achieve a desired orientation in accordance with the geometric indexing; removing the combination trial and cutting guide; and affixing the prosthesis to the bone.
 5. The method of claim 4, wherein the bone is a distal femur.
 6. The method of claim 4, wherein the outer surface is substantially planar.
 7. The method of claim 4, wherein the prosthesis is associated with cruciate-sacrifice joint-replacement surgery, and wherein the step of shaping the bone, includes the step of performing one or more intercondylar box cuts.
 8. The method of claim 7, further including the step of providing a bone-cutting saw having a concave curved distal end to perform at least one of the box cuts.
 9. The method of claim 7, further including the step of providing a bone-cutting saw having a bent blade to perform at least one of the box cuts.
 10. The method of claim 7, further including the step of referencing the fibula to determine the desired orientation. 